Simply download the PDF and cut out the template, a bit of 'pre-school' level assembling, aluminium foil and cotton glue all you need.

Note: The PDF is in A4 format, if you're printing in Letter format, remember to keep to the same aspect ratio, ideally use the 'fit to page' feature available on most printers. With that in mind, you should be able to scale up to a much larger version, on a A3 printer.

Well, this is all well and fine but...what the HECK do you DO WITH IT???? Just sit it in front of the laptop isn't going to do anything is it??? You have a cardboard cutout, you barely mention something about foil and some weird glue, and then NOTHING ELSE!

it is very simple, you cover it with aluminum foil and wear it on your head, use a 2 pieces of string and a bow knot and tie it under your chin if it is windy. Very machismo and always get a lot of extra seat space in the subway.

dear! i am facing a wifi signal reception problem, i am using a tp link router model wa7210n and hang on roof with pipe for long uses, but that signals are traveling on upper side , i cannot use with gud signals in down room.

I recommend using a good quality Tin-foil for any WiFi boosters like this one, the windsurfer, or anything similar.

If the foil rips easy, it's no good. I know that the thickness of the foil shouldn't affect it's reflection of the signal, but I observed my first attempts at making such boosters with the ones I used a heavy foil... too me it works better with a heavy foil. I think it's because cheap foil wrinkles up easy, and you need the foil smooth. I use shiny side towards the target (shiny side glued to the paper for most projects).

My very first attempt with the windsurfer made the signal worse (I blame a combo of cheap dollar store foil, and not getting the cuts and bends right). I made one with the foil on the inside and noticed you can tell if the arc is right if you shine a light on it and it all focuses evenly on the antenna. *You can print the design on bubble-jet/lazer transparency paper/plastic and it will turn out just as good (be it a nickel more in cost).

Here are picks of my humble wifi sharing setup. Be kind, it was a rush job. It is based on the same plans this instructible is. The noise floor around here is about -96dB, so the -73dB indicates a 23dB S/N ratio, which is respectable for a distance link. Without the parabola, the reading was in the mid to high 80s, so single digit S/N and very unreliable.

I used spray adhesive on stiff "cereal box" cardboard and stuck the foil the surface and smoothed it out. Then I cut out the panel with the foil on it after the adhesive cured a few minutes. I then mounted the entire apparatus inside a plastic bucket. The bucket sits upside down outside in the rain. I lose about 1dB because of the plastic bucket so am running 9-10dB gain typically.

I will bet you anything if you hooked an antenna analizer to this the SWR would be horrible. And the gain is probly non existant? When you work with SHF it tends to be really lossy So just hooking it up would lose half your signal. other than that.. Two simpathy stars. VE6WTF

You need to take a chill. It is simply a single curvature parabolic reflector enhancing the directionality and gain of a monopole and to the degree that the surface of the parabola is accurate to the template, it will work great. Use stiff cardboard. At 2.4Ghz a wavelength is still fairly large, so any inaccuracies in the surface less than a 1/4 inch or so will have negligible effect on VSWR. The VSWR will be fine because 1) it uses the stock omni as the active element, and 2) as stated above, inaccuracies in the reflector surface, at this wavelength, would have to be pretty big to cause phase issues.

I tell you what. Why don't you, in true HAM fashion, *prove* the VSWR is horrible. Don't just take potshots from the cheap-seats.

I'm using one right now to share wifi to a neighbor 50 yards away and get a very predictable 9-10db gain. Without the antenna their daughter gets no wifi on her iPhone. With the antenna directed at their side window, she gets solid signal all through the house except for the corners at the far end with lots of walls/structure in between.

This design is no different than a dish, just single curvature instead of dual; which matches fine to the axis of the monopole/omni. Sure it could be tweaked up but if constructed decently it appears to give me a decent 9-10dB gain, with very low error rate and few packet resends so the VSWR can't be an issue.

do you have a 2.6 ghz antenna analyzer... That is about a 5K us piece of equipment. Since, the Canadian ham test don't seem to cover much, Yes I have your countries test questions. An increased receive signal can be adjusted for maximum transmit gain... Hmmm... As dad and grandpa....

being a regular silicon chip reader, looking at some of their 'wifi antennas' for the zig bee is basically this a peice of plastic to hold some cardobard wrapped in alfoil. the dimentions of an antenna do matter down to the mm (um 16ths of inches for you americans i think i think 1/16 is accually 2 mm but who gives)

I have a D-Link DSL-2650u router. It sits about 11.5 meters from my SONY laptop.

I use Ubuntu 10.04 op system, and it tells me the normal signal strength is about 75%.

Having nothing else to do, I decided to copy this template and put the booster thing together. I had little hope it would do much at all. Now understand, I took my time and put it together neatly. When I attached the thing to the router the percentage jumped to 92%.

I moved things around , pointed the diy antenna booster in different directions and watched as the signal strength changed.

Hi guys, I`m no "techi" at all but just tried the option as found at the link below.... instant free wifi internet from the hospital across the road! http://www.imod.co.za/2007/12/14/building-a-wifi-booster-diy-style/

This is Cooll stuf... Can you make 360 Degrees.. parabolic... If you can please teach me.. Meanwhile.. I would build this parabolic with a huge size... Its must be pretty fun (Sorry bad english, cos I'am Indonesian Not a Colony of england)

I bet you anything that the SWR is unbelieveable! And when you are working with 2.4ghz, it can be very lossy, Leave it to the proffesionals <-- In any case. The gain you would get from this would be horrible. Its a good idea, Its just not practicle

VE6WTFIt is Hams like you that ruin our hobby... Leave it to the professionals? Are You, Dad and Grandpa the Professionals... How about Me, I am a US Extra Class and have an 2 Electrical Engineering Degrees? You need to study the facts about SWR.. I know you are a kid, but you need to adjust your attitude, study antennas and electronics.. Quit buying your equipment build some... and leave the experimenters alone. They are doing what you are not, and since you are a ham, shame on you... If I ever hear your callsign, I probably will not answer you!

I've used the following design at home, on both 2.4 GHz and 5GHz wifi access points with great success. Informal measurements showed a forward gain of between 5 to 10 db over the AP's antenna alone. My manufacturing method involved styrofoam, card stock, spray adhesive and aluminum foil. Measurements and cuts were made very carefully. I created my design so I could adjust the focus for the best forward gain possible. My measurement was simply Netstumbler running on a laptop 10 meters from the antenna. Rejection from the rear was in excess of 15 db for me. The pattern in front is fairly wide, so accurate aiming is not required as long as you are within a reasonable 20 or 30 degrees from your target.

Positioning was much more critical at 5GHz, naturally.

I used this design with the stock, as well as the 7 db replacement antenna - whose design I do not know.

My real life measurements were made with signal strength reported by my wifi nic to netstumbler. I also see more access points and have more reliable connections than without the reflector. And um, how many folks just happen to have SWR meters, field strength meters or other devices to measure at 2.4 and 5 GHz?

I can tell you in all cases the forward gain and rear rejection were impressive. and FREE. remember the word - FREE.

Hi All, I have looked through the comments on this "instructable" and many others like it. I actually tried to make a goofy little sattelite dish type addition for my laptop adapter. It didn't help at all. I was hoping other instructables members could help me out. I need to reach my nwtwork from about 150 feet away from the router. The router is in a bldg with stone walls. I can't mess with the router because the boss will freak so I have to work from the reception point. I purchased an engenius adapter/antenna which helped very slightly but was unreliable. Someone else suggested I Get an "N" adapter. I purchased a Hawking HiGain wireless N usb adapter. I haven't tested it yet but I would still like to hear any suggestions you guys could offer to improve this signal.